public override void SetShapePairFlags(Shape shape1, Shape shape2, ShapePairFlags flags) { base.SetShapePairFlags(shape1, shape2, flags); ODEBody body1 = (ODEBody)shape1.Body; ODEBody body2 = (ODEBody)shape2.Body; ODEBody.GeomData geomData1 = body1.GetGeomDataByShape(shape1); ODEBody.GeomData geomData2 = body2.GetGeomDataByShape(shape2); if (geomData1 != null && geomData2 != null) { dGeomID geomID1 = (geomData1.transformID != dGeomID.Zero) ? geomData1.transformID : geomData1.geomID; dGeomID geomID2 = (geomData2.transformID != dGeomID.Zero) ? geomData2.transformID : geomData2.geomID; bool value = (flags & ShapePairFlags.DisableContacts) != 0; Ode.SetShapePairDisableContacts(geomID1, geomID2, value); } }
void CreateGeomDatas() { tempGeomDatasAsList.Clear(); for (int n = 0; n < Shapes.Length; n++) { tempGeomDatasAsList.Add(null); } dSpaceID bodySpaceID = scene.rootSpaceID; for (int nShape = 0; nShape < Shapes.Length; nShape++) { Shape shape = Shapes[nShape]; GeomData geomData = new GeomData(); geomData.shape = shape; geomData.odeBody = (ODEBody)shape.Body; bool identityTransform = shape.Position == Vec3.Zero && shape.Rotation == Quat.Identity; // No offset transform. if (identityTransform) { geomData.spaceID = bodySpaceID; } //create geom switch (shape.ShapeType) { case Shape.Type.Box: { BoxShape boxShape = (BoxShape)shape; geomData.geomID = Ode.dCreateBox(geomData.spaceID, boxShape.Dimensions.X, boxShape.Dimensions.Y, boxShape.Dimensions.Z); } break; case Shape.Type.Sphere: { SphereShape sphereShape = (SphereShape)shape; geomData.geomID = Ode.dCreateSphere(geomData.spaceID, sphereShape.Radius); } break; case Shape.Type.Capsule: { CapsuleShape capsuleShape = (CapsuleShape)shape; geomData.geomID = Ode.dCreateCapsule(geomData.spaceID, capsuleShape.Radius, capsuleShape.Length); } break; case Shape.Type.Cylinder: { CylinderShape cylinderShape = (CylinderShape)shape; geomData.geomID = Ode.dCreateCylinder(geomData.spaceID, cylinderShape.Radius, cylinderShape.Length); } break; case Shape.Type.Mesh: { MeshShape meshShape = (MeshShape)shape; if (!Static) { if (!notSupportedMeshesLogInformed) { notSupportedMeshesLogInformed = true; Log.Warning("ODEBody: Dynamic convex and triangle meshes are not " + "supported by ODE."); } Log.Info("ODEBody: Dynamic convex and triangle meshes are not " + "supported by ODE."); //ignore shape continue; } //get mesh geometry from cache PhysicsWorld._MeshGeometry geometry = meshShape._GetMeshGeometry(); //ignore shape if (geometry == null) { Log.Info("ODEBody: Mesh is not initialized. ({0}).", meshShape.MeshName); continue; } ODEPhysicsWorld.MeshGeometryODEData data; if (geometry.UserData == null) { data = new ODEPhysicsWorld.MeshGeometryODEData(); //generate MeshGeometryODEData data data.triMeshDataID = Ode.dGeomTriMeshDataCreate(); data.verticesCount = geometry.Vertices.Length; data.indicesCount = geometry.Indices.Length; data.vertices = (IntPtr)Ode.dAlloc((uint) (Marshal.SizeOf(typeof(float)) * 3 * data.verticesCount)); data.indices = (IntPtr)Ode.dAlloc((uint) (Marshal.SizeOf(typeof(int)) * data.indicesCount)); unsafe { fixed(Vec3 *source = geometry.Vertices) { NativeUtils.CopyMemory(data.vertices, (IntPtr)source, data.verticesCount * sizeof(Vec3)); } fixed(int *source = geometry.Indices) { NativeUtils.CopyMemory(data.indices, (IntPtr)source, data.indicesCount * sizeof(int)); } } //build ode tri mesh data Ode.dGeomTriMeshDataBuildSingleAsIntPtr( data.triMeshDataID, data.vertices, Marshal.SizeOf(typeof(float)) * 3, data.verticesCount, data.indices, data.indicesCount, Marshal.SizeOf(typeof(int)) * 3); geometry.UserData = data; } else { data = (ODEPhysicsWorld.MeshGeometryODEData)geometry.UserData; } data.checkRefCounter++; geomData.meshGeometryODEData = data; geomData.geomID = Ode.dCreateTriMesh(geomData.spaceID, data.triMeshDataID, null, null, null); Ode.SetGeomTriMeshSetRayCallback(geomData.geomID); //unsafe //{ // float[] planes = new float[] // { // 1.0f ,0.0f ,0.0f ,0.25f, // 0.0f ,1.0f ,0.0f ,0.25f, // 0.0f ,0.0f ,1.0f ,0.25f, // -1.0f,0.0f ,0.0f ,0.25f, // 0.0f ,-1.0f,0.0f ,0.25f, // 0.0f ,0.0f ,-1.0f,0.25f // }; // float[] points = new float[] // { // 0.25f,0.25f,0.25f, // -0.25f,0.25f,0.25f, // 0.25f,-0.25f,0.25f, // -0.25f,-0.25f,0.25f, // 0.25f,0.25f,-0.25f, // -0.25f,0.25f,-0.25f, // 0.25f,-0.25f,-0.25f, // -0.25f,-0.25f,-0.25f, // }; // uint[] polygons = new uint[] // { // 4,0,2,6,4, // 4,1,0,4,5, // 4,0,1,3,2, // 4,3,1,5,7, // 4,2,3,7,6, // 4,5,4,6,7, // }; // float* nativePlanes = (float*)Ode.dAlloc( (uint)( sizeof( float ) * planes.Length ) ); // for( int n = 0; n < planes.Length; n++ ) // nativePlanes[ n ] = planes[ n ]; // uint planeCount = 6; // float* nativePoints = (float*)Ode.dAlloc( (uint)( sizeof( float ) * points.Length ) ); // for( int n = 0; n < points.Length; n++ ) // nativePoints[ n ] = points[ n ]; // uint pointCount = 8; // uint* nativePolygons = (uint*)Ode.dAlloc( (uint)( sizeof( uint ) * polygons.Length ) ); // for( int n = 0; n < polygons.Length; n++ ) // nativePolygons[ n ] = polygons[ n ]; // //ODEPhysicsWorld.MeshGeometryODEData data; // //if( geometry.UserData == null ) // //{ // // data = new ODEPhysicsWorld.MeshGeometryODEData(); // //} // geomData.geomID = Ode.dCreateConvex( geomData.spaceID, nativePlanes, // planeCount, nativePoints, pointCount, nativePolygons ); //} } break; } //add geom data to list tempGeomDatasAsList[nShape] = geomData; geomData.shape = shape; geomData.odeBody = (ODEBody)shape.Body; // Use ODE's geom transform object. if (!identityTransform) { geomData.transformID = Ode.dCreateGeomTransform(bodySpaceID); } //set geom to body if (!Static) { if (geomData.transformID == dGeomID.Zero) { Ode.dGeomSetBody(geomData.geomID, bodyID); } else { Ode.dGeomSetBody(geomData.transformID, bodyID); } } if (geomData.transformID != dGeomID.Zero) { // Setup geom transform. Ode.dGeomTransformSetGeom(geomData.transformID, geomData.geomID); Ode.dQuaternion odeQuat; Convert.ToODE(shape.Rotation, out odeQuat); Ode.dGeomSetQuaternion(geomData.geomID, ref odeQuat); Ode.dGeomSetPosition(geomData.geomID, shape.Position.X, shape.Position.Y, shape.Position.Z); } // Set the GeomData reference for later use (e.g. in collision handling). geomData.shapeDictionaryIndex = scene.shapesDictionary.Add(geomData); dGeomID geomID = geomData.transformID != dGeomID.Zero ? geomData.transformID : geomData.geomID; Ode.CreateShapeData(geomID, bodyData, geomData.shapeDictionaryIndex, shape.ShapeType == Shape.Type.Mesh, shape.ContactGroup, shape.Hardness, shape.Restitution, shape.DynamicFriction, shape.StaticFriction); //shape pair flags Dictionary <Shape, ShapePairFlags> list = shape._GetShapePairFlags(); if (list != null) { foreach (KeyValuePair <Shape, ShapePairFlags> pair in list) { Shape otherShape = pair.Key; ShapePairFlags flags = pair.Value; if ((flags & ShapePairFlags.DisableContacts) != 0) { ODEBody otherBody = (ODEBody)otherShape.Body; GeomData otherGeomData = otherBody.GetGeomDataByShape(otherShape); if (otherGeomData != null) { dGeomID otherGeomID = (otherGeomData.transformID != dGeomID.Zero) ? otherGeomData.transformID : otherGeomData.geomID; Ode.SetShapePairDisableContacts(geomID, otherGeomID, true); } } } } } geomDatas = tempGeomDatasAsList.ToArray(); tempGeomDatasAsList.Clear(); if (Static) { UpdateStaticBodyGeomsTransform(); } }